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Ethylene responsive factor34 mediates stress-induced leaf senescence by regulating salt stress-responsive genes

Title
Ethylene responsive factor34 mediates stress-induced leaf senescence by regulating salt stress-responsive genes
Author(s)
Park, Sung-JinPark, SanghoonKim, YongminHyeon, Do YoungPark, HyunsooJeong, JunyongJeong, UkcheolYoon, Yeong SeonYou, DaesangKwak, JunminTimilsina, RupakHwang, DaeheeKim, JeongsikWoo, Hye Ryun
Issued Date
2022-06
Citation
Plant, Cell and Environment, v.45, no.6, pp.1719 - 1733
Type
Article
Author Keywords
ArabidopsisERF34leaf senescencesalt stress tolerance
Keywords
NAC TRANSCRIPTION FACTORSTOMATAL CLOSUREARABIDOPSISTOLERANCEDROUGHTSALINITYOVEREXPRESSIONIDENTIFICATIONREVEALSSIGNALS
ISSN
0140-7791
Abstract
Leaf senescence proceeds with age but is modulated by various environmental stresses and hormones. Salt stress is one of the most well-known environmental stresses that accelerate leaf senescence. However, the molecular mechanisms that integrate salt stress signalling with leaf senescence programmes remain elusive. In this study, we characterised the role of ETHYLENE RESPONSIVE FACTOR34 (ERF34), an Arabidopsis APETALA2 (AP2)/ERF family transcription factor, in leaf senescence. ERF34 was differentially expressed under various leaf senescence-inducing conditions, and negatively regulated leaf senescence induced by age, dark, and salt stress. ERF34 also promoted salt stress tolerance at different stages of the plant life cycle such as seed germination and vegetative growth. Transcriptome analysis revealed that the overexpression of ERF34 increased the transcript levels of salt stress-responsive genes including COLD-REGULATED15A (COR15A), EARLY RESPONSIVE TO DEHYDRATION10 (ERD10), and RESPONSIVE TO DESICCATION29A (RD29A). Moreover, ERF34 directly bound to ERD10 and RD29A promoters and activated their expression. Our findings indicate that ERF34 plays a key role in the convergence of the salt stress response with the leaf senescence programmes, and is a potential candidate for crop improvement, particularly by enhancing salt stress tolerance. © 2022 John Wiley & Sons Ltd.
URI
http://hdl.handle.net/20.500.11750/16488
DOI
10.1111/pce.14317
Publisher
Blackwell Publishing Inc.
Related Researcher
  • 우혜련 Woo, Hye Ryun
  • Research Interests Genome biology; Epigenomics; Plant senescence
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Department of New Biology Lab of Plant Molecular Communication 1. Journal Articles

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